Project description:Macrobrachium rosenbergii full-length transcripts

Project description:Hepatopancreas proteomics analyses Macrobrachium nipponense, reveals key proteins in regulatory mechanism of ovary maturation of Macrobrachium nipponense.

Project description:MicroRNAs (miRNAs) function as regulators in a broad range of phenotypes. The Oriental River Prawn (Macrobrachium nipponense) is an important commercial species that is widely distributed in freshwater and low-salinity estuarine regions of China and other Asian countries. To date, there are no reports describing M. nipponense miRNAs.

Project description:MicroRNAs (miRNAs) function as regulators in a broad range of phenotypes. The Oriental River Prawn (Macrobrachium nipponense) is an important commercial species that is widely distributed in freshwater and low-salinity estuarine regions of China and other Asian countries. To date, there are no reports describing M. nipponense miRNAs.

Project description:To identify genes involved in nutrition metabolism of Macrobrachium nipponense, two independent cDNA libraries from hepatopancreas and muscle were constructed through high-throughput next-generation sequencing techniques. A total of 112,548,142 and 90,140,774 high quality reads were generated in the two cDNA libraries, respectively. Clustering and assembly of these reads produced a nonredundant set of 98,560 unique sequences, with an average unigene length of 793 bp. The unigene sequences were subjected to GO, COG and KEGG functional classification. A large number of differentially expressed genes were recovered by comparison of the two tissues. The differentially expressed and their functions were predicted by KEGG pathway mapping. Furthermore, 17,971SSRs and 32,935 high-confidence SNPs were identified in the two EST datasets. This study lays the foundation for further research on gene function analysis in nutrition metabolism of M. nipponense. sample 1: hepatopancreas; sample 2: muscle

Project description:MicroRNAs (miRNAs) function as regulators in a broad range of phenotypes. The Oriental River Prawn (Macrobrachium nipponense) is an important commercial species that is widely distributed in freshwater and low-salinity estuarine regions of China and other Asian countries. To date, there are no reports describing M. nipponense miRNAs. In this study, Solexa deep sequencing technology was used for high-throughput analysis of miRNAs in a small RNA library isolated from four M. nipponense tissues (gill, hepatopancreas, muscle and hemocytes). In total, 9,227,356 reads were obtained, 4,293,155 of which were related to 267 unique miRNAs, including 203 conserved and 64 prawn-specific miRNAs. Furthermore, miRNA features including length distribution and end variations were characterized. Annotation of targets revealed a broad range of biological processes and signal transduction pathways regulated by M. nipponense miRNAs. In addition, 880 co-expressed and 39 specific (25 normoxia-specific and 14 hypoxia-specific) miRNAs of four combined tissues of prawns that may be involved in the response to hypoxia were confirmed using miRNA microarray analysis. Real-time quantitative PCR (qPCR) analysis of eight miRNAs in the normoxia and hypoxia groups showed good concordance between the sequencing and qPCR data. This study provides the first large-scale identification and characterization of M. nipponense miRNAs and their potential targets, and represents a foundation for further characterization of their roles in the regulation of the diversity of hypoxia processes.

Project description:MicroRNAs (miRNAs) function as regulators in a broad range of phenotypes. The Oriental River Prawn (Macrobrachium nipponense) is an important commercial species that is widely distributed in freshwater and low-salinity estuarine regions of China and other Asian countries. To date, there are no reports describing M. nipponense miRNAs. In this study, Solexa deep sequencing technology was used for high-throughput analysis of miRNAs in a small RNA library isolated from four M. nipponense tissues (gill, hepatopancreas, muscle and hemocytes). In total, 9,227,356 reads were obtained, 4,293,155 of which were related to 267 unique miRNAs, including 203 conserved and 64 prawn-specific miRNAs. Furthermore, miRNA features including length distribution and end variations were characterized. Annotation of targets revealed a broad range of biological processes and signal transduction pathways regulated by M. nipponense miRNAs. In addition, 880 co-expressed and 39 specific (25 normoxia-specific and 14 hypoxia-specific) miRNAs of four combined tissues of prawns that may be involved in the response to hypoxia were confirmed using miRNA microarray analysis. Real-time quantitative PCR (qPCR) analysis of eight miRNAs in the normoxia and hypoxia groups showed good concordance between the sequencing and qPCR data. This study provides the first large-scale identification and characterization of M. nipponense miRNAs and their potential targets, and represents a foundation for further characterization of their roles in the regulation of the diversity of hypoxia processes.

Project description:Long-read sequencing of the Oriental River Prawn Macrobrachium nipponense transcriptome reveals the diversity of full-length transcripts

Project description:To identify genes involved in nutrition metabolism of Macrobrachium nipponense, two independent cDNA libraries from hepatopancreas and muscle were constructed through high-throughput next-generation sequencing techniques. A total of 112,548,142 and 90,140,774 high quality reads were generated in the two cDNA libraries, respectively. Clustering and assembly of these reads produced a nonredundant set of 98,560 unique sequences, with an average unigene length of 793 bp. The unigene sequences were subjected to GO, COG and KEGG functional classification. A large number of differentially expressed genes were recovered by comparison of the two tissues. The differentially expressed and their functions were predicted by KEGG pathway mapping. Furthermore, 17,971SSRs and 32,935 high-confidence SNPs were identified in the two EST datasets. This study lays the foundation for further research on gene function analysis in nutrition metabolism of M. nipponense.

Project description:Macrobrachium nipponense Raw sequence reads